Mitsubishi CC Link Spring Clamp Terminal Relay ModuleAJ65BTS-RPH is a powerful network communication device.
Mitsubishi CC Link Spring Clamp Terminal Relay ModuleApplication Scenario:
Industrial Automation Network Expansion
In factory automation systems, it is used to connect devices such as PLCs, sensors, and actuators to expand the coverage of CC Link networks.
Example: In an automobile production line, control devices at multiple workstations are connected through AJ65BTS-RPH to achieve real-time data transmission.
Complex equipment layout adaptation
Support star wiring, adapt to the dispersed layout requirements of on-site equipment, and simplify wiring complexity.
Example: In large chemical equipment, sensors distributed in different areas are connected by star wiring to reduce cable length.
Stable transmission in high interference environment
The spring clip terminal design ensures secure wiring and strong vibration resistance, making it suitable for industrial environments with high electromagnetic interference.
Example: In the blast furnace control system of the metallurgical industry, stable signal transmission is ensured through AJ65BTS-RPH.
Operation and maintenance:
Wiring steps
Connect the trunk of CC Link master station or upstream repeater to the trunk port of AJ65BTS-RPH.
Connect the branch equipment to the branch port of AJ65BTS-RPH, ensuring that the branch terminal resistor is built-in.
Choose the appropriate terminal resistor based on the transmission rate (110 Ω or 130 Ω can be selected for the main line).
Parameter Configuration
Set module parameters, including transmission rate, station number, etc., through engineering software such as GX Works3.
Ensure that the parameters of the master and slave stations are consistent to avoid communication abnormalities.
troubleshooting
Check if the wiring is secure, especially if the spring clip terminals clamp the cable tightly.
Confirm that the terminal resistance is set correctly to avoid communication errors caused by signal reflection.
Quickly locate the fault point through module status indicator lights (such as RUN, ERR lights).